0000000000673560

AUTHOR

Jens K. Jørgensen

0000-0002-5167-5193

showing 3 related works from this author

Composite Material Recycling Technology—State-of-the-Art and Sustainable Development for the 2020s

2021

Recently, significant events took place that added immensely to the sociotechnical pressure for developing sustainable composite recycling solutions, namely (1) a ban on composite landfilling in Germany in 2009, (2) the first major wave of composite wind turbines reaching their End-of-Life (EoL) and being decommissioned in 2019–2020, (3) the acceleration of aircraft decommissioning due to the COVID-19 pandemic, and (4) the increase of composites in mass production cars, thanks to the development of high volume technologies based on thermoplastic composites. Such sociotechnical pressure will only grow in the upcoming decade of 2020s as other countries are to follow Germany by limiting and ba…

Engineeringcircular economy;Sociotechnical systemcomposite materialsAutomotive industryend-of-life02 engineering and technologyrecycling010501 environmental sciencescompositeslcsh:Technology7. Clean energy01 natural sciencesCommercializationNuclear decommissioning12. Responsible consumptionComposite materiallcsh:Sciencecars;recycling;Engineering (miscellaneous)0105 earth and related environmental sciencesSustainable developmentcircularitylcsh:Tbusiness.industryCircular economysustainability;sustainability021001 nanoscience & nanotechnologysocietycircularity;composite materials;composites;Work (electrical)end-of-life;technologySustainabilityCeramics and Compositeslcsh:Q0210 nano-technologybusinessJournal of Composites Science
researchProduct

Composite Material Recycling Technology – State-of-the-Art and Sustainable Development for the 2020s.

2020

Recently, significant events took place that added immensely to the sociotechnical pressure for developing sustainable composite recycling solutions, namely (1) a ban on composite landfilling in Germany in 2009, (2) the first major wave of composite wind turbines reaching their End-of-Life (EoL) and being decommissioned in 2019–2020, (3) the acceleration of aircraft decommissioning due to the COVID-19 pandemic, and (4) the increase of composites in mass production cars, thanks to the development of high volume technologies based on thermoplastic composites. Such sociotechnical pressure will only grow in the upcoming decade of 2020s as other countries are to follow Germany by limiting and ba…

Sustainable developmentEngineeringSociotechnical systembusiness.industryCircular economyAutomotive industry7. Clean energyCommercializationNuclear decommissioning12. Responsible consumptionWork (electrical)SustainabilityComposite materialbusinessbiomaterials
researchProduct

Composite material recycling technology—state-of-the-art and sustainable development for the 2020s

2021

Recently, significant events took place that added immensely to the sociotechnical pressure for developing sustainable composite recycling solutions, namely (1) a ban on composite landfilling in Germany in 2009, (2) the first major wave of composite wind turbines reaching their End-of-Life (EoL) and being decommissioned in 2019–2020, (3) the acceleration of aircraft decommissioning due to the COVID-19 pandemic, and (4) the increase of composites in mass production cars, thanks to the development of high volume technologies based on thermoplastic composites. Such sociotechnical pressure will only grow in the upcoming decade of 2020s as other countries are to follow Germany by limiting and ba…

:NATURAL SCIENCES::Physics [Research Subject Categories]
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